In this work a new technology, based on piezo-polymer films excite/receive Lamb waves, for designing and manufacturing interdigital ultrasonic transducers (IDT) is presented. This type of transducers have been proposed for structural health monitoring of large spacecraft structures/components made of carbon epoxy composite laminates. The transducers are designed according to the characteristics dispersion curves of the acoustic phase velocity of the composite material. Several IDTs operating at 350 kHz with three finger electrodes pairs at distance 8 mm, have been used to validate a laboratory model for a complete non destructive testing (NDT) system on large composites structures, even on non planar surfaces.
ACOUSTIC GUIDED WAVES INTERDIGITAL TRANSDUCERS FOR NON DESTRUCTIVE TESTING OF CARBON-EPOXY COMPOSITES FOR SPACECRAFT STRUCTURES / F. BELLAN;A. BULLETTI;L. CAPINERI;L. MASOTTI;F. GUASTI;E. ROSI. - STAMPA. - (2005), pp. 246-250. (Intervento presentato al convegno Sensors and Microsystems tenutosi a Ferrara, Italy, nel 8 – 11 February 2004) [10.1142/9789812701770_0042].
ACOUSTIC GUIDED WAVES INTERDIGITAL TRANSDUCERS FOR NON DESTRUCTIVE TESTING OF CARBON-EPOXY COMPOSITES FOR SPACECRAFT STRUCTURES
BULLETTI, ANDREA;CAPINERI, LORENZO;MASOTTI, LEONARDO;
2005
Abstract
In this work a new technology, based on piezo-polymer films excite/receive Lamb waves, for designing and manufacturing interdigital ultrasonic transducers (IDT) is presented. This type of transducers have been proposed for structural health monitoring of large spacecraft structures/components made of carbon epoxy composite laminates. The transducers are designed according to the characteristics dispersion curves of the acoustic phase velocity of the composite material. Several IDTs operating at 350 kHz with three finger electrodes pairs at distance 8 mm, have been used to validate a laboratory model for a complete non destructive testing (NDT) system on large composites structures, even on non planar surfaces.I documenti in FLORE sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.